#!/usr/bin/env python
# -*- coding: utf-8 -*-

# Part of the PsychoPy library
# Copyright (C) 2002-2018 Jonathan Peirce (C) 2019-2021 Open Science Tools Ltd.
# Distributed under the terms of the GNU General Public License (GPL).

import time
import os
import locale

import wx
from wx import grid
from wx.lib import intctrl

from psychopy.localization import _translate
from psychopy import monitors, hardware, logging
from psychopy.app import dialogs

DEBUG = False
NOTEBOOKSTYLE = False
NO_MEASUREMENTS = False

if DEBUG:
    logging.console.setLevel(logging.DEBUG)
else:
    logging.console.setLevel(logging.INFO)

try:
    import matplotlib
    matplotlib.use('WXAgg')
    from matplotlib.backends.backend_wxagg import (FigureCanvasWxAgg
                                                   as FigureCanvas)
    from matplotlib.figure import Figure
except Exception:
    pass
import numpy

# wx4 changed EVT_GRID_CELL_CHANGE -> EVT_GRID_CELL_CHANGED
if not hasattr(wx.grid, 'EVT_GRID_CELL_CHANGED'):
    wx.grid.EVT_GRID_CELL_CHANGED = wx.grid.EVT_GRID_CELL_CHANGE

# wx IDs for menu items
def newIds(n):
    return [wx.NewId() for i in range(n)]

[idMenuSave] = newIds(1)
# wx IDs for controllers (admin panel)
[idCtrlMonList, idCtrlCalibList, idBtnCopyCalib, idBtnSaveMon] = newIds(4)
[idBtnNewMon, idBtnDeleteMon, idBtnNewCalib, idBtnDeleteCalib] = newIds(4)
# wx IDs for controllers (info panel)
[idCtrlScrDist, idCtrlScrWidth, idCtrlCalibDate, idCtrlCalibNotes] = newIds(4)


def unicodeToFloat(val):
    """Convert a unicode object from wx dialogs into a float, accounting for
    locale settings (comma might be dec place)
    """
    if val == 'None':
        val = None
    else:
        try:
            val = locale.atof(val)
        except ValueError:
            return None  # ignore values that can't be a float
    return val


class SimpleGrid(grid.Grid):  # , wxGridAutoEditMixin):

    def __init__(self, parent, id=-1, rows=(), cols=(), data=None):
        self.parent = parent
        self.moveTo = None
        self.nRows, self.nCols = len(rows), len(cols)
        # ,wx.Size( 300, 150 ))
        grid.Grid.__init__(self, parent, -1, wx.Point(0, 0))

        self.numEditor = grid.GridCellFloatEditor()
        self.CreateGrid(self.nRows, self.nCols)
        for nCol, col in enumerate(cols):
            self.SetColLabelValue(nCol, col)
            self.SetColFormatFloat(nCol, 4, 4)
            # self.SetColMinimalWidth(nCol,800)
        for nRow, row in enumerate(rows):
            self.SetRowLabelValue(nRow, row)
        for nRow in range(self.nRows):
            for nCol in range(self.nCols):
                self.SetCellEditor(nRow, nCol, self.numEditor)
                self.numEditor.IncRef()
        self.setData(data)
        # self.SetMargins(-5,-5)
        self.Bind(wx.EVT_IDLE, self.OnIdle)
        self.Bind(grid.EVT_GRID_SELECT_CELL, self.onSelectCell)

    def OnIdle(self, evt):
        if self.moveTo != None:
            self.SetGridCursor(self.moveTo[0], self.moveTo[1])
            self.moveTo = None
        evt.Skip()

    def setData(self, data=None):
        # update the data for the grid
        for nRow in range(self.nRows):
            for nCol in range(self.nCols):
                if (data is not None and
                        nRow < data.shape[0] and
                        nCol < data.shape[1]):
                    self.SetCellValue(nRow, nCol, '%f' % data[nRow, nCol])
                else:
                    self.SetCellValue(nRow, nCol, '0.000')
        self.AutoSize()

    def onSelectCell(self, evt=None):
        # data might have changed so redo layout
        self.AutoSize()
        self.parent.Layout()  # expands the containing sizer if needed
        evt.Skip()  # allow grid to handle the rest of the update


class PlotFrame(wx.Frame):

    def __init__(self, parent, ID, title, plotCanvas=None,
                 pos=wx.DefaultPosition,
                 size=wx.DefaultSize, style=wx.DEFAULT_FRAME_STYLE):
        wx.Frame.__init__(self, parent, ID, title, pos, size, style)
        panel = wx.Panel(self, -1)
        self.sizer = wx.GridBagSizer(1, 1)
        if plotCanvas is not None:
            self.addCanvas(plotCanvas)
        wx.EVT_SIZE(self, self.OnSize)

    def addCanvas(self, canvas):
        self.canvas = canvas
        self.sizer.Add(canvas, pos=(0, 0), flag=wx.EXPAND)
        self.SetSizerAndFit(self.sizer)
        self.SetAutoLayout(True)
        self.Show()

    def OnSize(self, event):
        self.canvas.SetSize(event.GetSize())


class MainFrame(wx.Frame):

    def __init__(self, parent, title):
        # create a default monitor with no name
        self.currentMon = monitors.Monitor('', verbose=False)
        self.currentMonName = None  # use to test if monitor is placeholder
        self.currentCalibName = None
        self.unSavedMonitor = False
        self.comPort = 1
        self.photom = None

        # start building the frame
        wx.Frame.__init__(self, parent, -1, title, size=wx.DefaultSize,
                          style=wx.DEFAULT_FRAME_STYLE)

        self.makeMenuBar()

        if NOTEBOOKSTYLE:
            # make the notebook
            self.noteBook = wx.Notebook(self, -1)

            # add the info page
            self.infoPanel = wx.Panel(self.noteBook, -1)
            self.noteBook.AddPage(self.infoPanel, _translate('Monitor Info'))
            infoSizer = wx.BoxSizer(wx.HORIZONTAL)
            infoSizer.Add(self.makeAdminBox(self.infoPanel), 1, wx.EXPAND)
            infoSizer.Add(self.makeInfoBox(self.infoPanel), 1, wx.EXPAND)
            self.infoPanel.SetAutoLayout(True)
            self.infoPanel.SetSizerAndFit(infoSizer)

            # add the calibration page
            self.calibPanel = wx.Panel(self.noteBook, -1)
            self.noteBook.AddPage(self.calibPanel, _translate('Calibration'))
            calibSizer = self.makeCalibBox(self.calibPanel)
            self.calibPanel.SetAutoLayout(True)
            self.calibPanel.SetSizerAndFit(calibSizer)

            self.noteBookSizer.Layout()
            self.noteBookSizer.Fit(self)
        else:
            # just one page
            self.infoPanel = wx.Panel(self, -1)
            mainSizer = wx.BoxSizer(wx.HORIZONTAL)
            leftSizer = wx.BoxSizer(wx.VERTICAL)
            rightSizer = wx.BoxSizer(wx.VERTICAL)
            _style = wx.EXPAND | wx.ALL
            leftSizer.Add(self.makeAdminBox(self.infoPanel), 1, _style, 2)
            leftSizer.Add(self.makeInfoBox(self.infoPanel), 1, _style, 2)
            rightSizer.Add(self.makeCalibBox(self.infoPanel), 1, _style, 2)
            #
            mainSizer.Add(leftSizer, 1, _style, 2)
            mainSizer.Add(rightSizer, 1, _style, 2)

            # finalise panel layout
            mainSizer.Layout()
            self.infoPanel.SetAutoLayout(True)
            self.infoPanel.SetSizerAndFit(mainSizer)

        # if wx version 2.5+:
        self.SetSize(self.GetBestSize())
        # self.CreateStatusBar()
        # self.SetStatusText("Maybe put tooltips down here one day")
        if os.path.isfile('psychopy.ico'):
            try:
                self.SetIcon(wx.Icon('psychopy.ico', wx.BITMAP_TYPE_ICO))
            except Exception:
                pass

        self.Bind(wx.EVT_CLOSE, self.onCloseWindow)
        self.updateMonList()

    def makeMenuBar(self):
        menuBar = wx.MenuBar()
        fileMenu = wx.Menu()
        fileMenu.Append(idMenuSave,
                        _translate('Save\tCtrl+S'),
                        _translate('Save the current monitor'))
        self.Bind(wx.EVT_MENU, self.onSaveMon, id=idMenuSave)
        _hint = _translate(
            'Close Monitor Center (but not other PsychoPy windows)')
        fileMenu.Append(wx.ID_CLOSE,
                        _translate('Close Monitor Center\tCtrl+W'),
                        _hint)
        self.Bind(wx.EVT_MENU, self.onCloseWindow, id=wx.ID_CLOSE)
        menuBar.Append(fileMenu, _translate('&File'))

        # Edit
        editMenu = wx.Menu()
        id = wx.NewId()
        _hint = _translate("Copy the current monitor's name to clipboard")
        editMenu.Append(id, _translate('Copy\tCtrl+C'), _hint)
        self.Bind(wx.EVT_MENU, self.onCopyMon, id=id)
        menuBar.Append(editMenu, _translate('&Edit'))

        self.SetMenuBar(menuBar)

    def makeAdminBox(self, parent):
        # make the box for the controls
        boxLabel = wx.StaticBox(parent, -1, _translate('Choose Monitor'))
        boxLabel.SetFont(wx.Font(14, wx.SWISS, wx.NORMAL, wx.NORMAL))
        adminBox = wx.StaticBoxSizer(boxLabel)

        # build the controls
        self.ctrlMonList = wx.ListBox(parent, idCtrlMonList,
                                      choices=['iiyama571', 'sonyG500'],
                                      size=(350, 100))
        self.Bind(wx.EVT_LISTBOX, self.onChangeMonSelection, self.ctrlMonList)

        monButtonsBox = wx.BoxSizer(wx.VERTICAL)

        self.btnNewMon = wx.Button(parent, idBtnNewMon, _translate('New...'))
        self.Bind(wx.EVT_BUTTON, self.onNewMon, self.btnNewMon)
        monButtonsBox.Add(self.btnNewMon)
        self.btnNewMon.SetToolTip(wx.ToolTip(
            _translate("Create a new monitor")))

        self.btnSaveMon = wx.Button(parent, idBtnSaveMon, _translate('Save'))
        self.Bind(wx.EVT_BUTTON, self.onSaveMon, self.btnSaveMon)
        monButtonsBox.Add(self.btnSaveMon)
        msg = _translate("Save all calibrations for this monitor")
        self.btnSaveMon.SetToolTip(wx.ToolTip(msg))

        self.btnDeleteMon = wx.Button(parent, idBtnDeleteMon,
                                      _translate('Delete'))
        self.Bind(wx.EVT_BUTTON, self.onDeleteMon, self.btnDeleteMon)
        monButtonsBox.Add(self.btnDeleteMon)
        msg = _translate("Delete this monitor entirely")
        self.btnDeleteMon.SetToolTip(wx.ToolTip(msg))

        self.ctrlCalibList = wx.ListBox(parent, idCtrlCalibList,
                                        choices=[''],
                                        size=(350, 100))
        self.Bind(wx.EVT_LISTBOX, self.onChangeCalibSelection,
                  self.ctrlCalibList)
        calibButtonsBox = wx.BoxSizer(wx.VERTICAL)

        self.btnCopyCalib = wx.Button(parent, idBtnCopyCalib,
                                      _translate('Copy...'))
        self.Bind(wx.EVT_BUTTON, self.onCopyCalib, self.btnCopyCalib)
        calibButtonsBox.Add(self.btnCopyCalib)
        msg = _translate("Creates a new calibration entry for this monitor")
        self.btnCopyCalib.SetToolTip(wx.ToolTip(msg))

        self.btnDeleteCalib = wx.Button(
            parent, idBtnDeleteCalib, _translate('Delete'))
        self.Bind(wx.EVT_BUTTON, self.onDeleteCalib, self.btnDeleteCalib)
        calibButtonsBox.Add(self.btnDeleteCalib)
        msg = _translate("Remove this calibration entry (finalized when "
                         "monitor is saved)")
        self.btnDeleteCalib.SetToolTip(wx.ToolTip(msg))

        # add controls to box
        adminBoxMainSizer = wx.FlexGridSizer(cols=2, hgap=6, vgap=6)
        adminBoxMainSizer.AddMany([(1, 10), (1, 10),  # 2 empty boxes 1x10pix
                                   self.ctrlMonList, monButtonsBox,
                                   self.ctrlCalibList, calibButtonsBox])
        adminBox.Add(adminBoxMainSizer)
        return adminBox

    def makeInfoBox(self, parent):
        # create the box
        infoBox = wx.StaticBox(parent, -1, _translate('Monitor Info'))
        infoBox.SetFont(wx.Font(14, wx.SWISS, wx.NORMAL, wx.NORMAL))
        infoBoxSizer = wx.StaticBoxSizer(infoBox, wx.VERTICAL)

        # scr distance
        labelScrDist = wx.StaticText(parent, -1,
                                     _translate("Screen Distance (cm):"),
                                     style=wx.ALIGN_RIGHT)
        self.ctrlScrDist = wx.TextCtrl(parent, idCtrlScrDist, "")
        self.Bind(wx.EVT_TEXT, self.onChangeScrDist, self.ctrlScrDist)

        # scr width
        labelScrWidth = wx.StaticText(parent, -1,
                                      _translate("Screen Width (cm):"),
                                      style=wx.ALIGN_RIGHT)
        self.ctrlScrWidth = wx.TextCtrl(parent, idCtrlScrWidth, "")
        self.Bind(wx.EVT_TEXT, self.onChangeScrWidth, self.ctrlScrWidth)

        # scr pixels
        _size = _translate("Size (pixels; Horiz,Vert):")
        labelScrPixels = wx.StaticText(parent, -1, _size,
                                       style=wx.ALIGN_RIGHT)
        self.ctrlScrPixHoriz = wx.TextCtrl(parent, -1, "", size=(50, 20))
        self.Bind(wx.EVT_TEXT, self.onChangeScrPixHoriz, self.ctrlScrPixHoriz)
        self.ctrlScrPixVert = wx.TextCtrl(parent, -1, '', size=(50, 20))
        self.Bind(wx.EVT_TEXT, self.onChangeScrPixVert, self.ctrlScrPixVert)
        ScrPixelsSizer = wx.BoxSizer(wx.HORIZONTAL)
        ScrPixelsSizer.AddMany([self.ctrlScrPixHoriz, self.ctrlScrPixVert])

        # date
        labelCalibDate = wx.StaticText(parent, -1,
                                       _translate("Calibration Date:"),
                                       style=wx.ALIGN_RIGHT)
        self.ctrlCalibDate = wx.TextCtrl(parent, idCtrlCalibDate, "",
                                         size=(150, 20))
        self.ctrlCalibDate.Disable()
        # notes
        labelCalibNotes = wx.StaticText(parent, -1,
                                        _translate("Notes:"),
                                        style=wx.ALIGN_RIGHT)
        self.ctrlCalibNotes = wx.TextCtrl(parent, idCtrlCalibNotes, "",
                                          size=(150, 150),
                                          style=wx.TE_MULTILINE)
        self.Bind(wx.EVT_TEXT, self.onChangeCalibNotes, self.ctrlCalibNotes)

        # bits++
        self.ctrlUseBits = wx.CheckBox(parent, -1, _translate('Use Bits++'))
        self.Bind(wx.EVT_CHECKBOX, self.onChangeUseBits, self.ctrlUseBits)

        infoBoxGrid = wx.FlexGridSizer(cols=2, hgap=6, vgap=6)
        infoBoxGrid.AddMany([
            (1, 10), (1, 10),  # a pair of empty boxes each 1x10pix
            (1, 10), self.ctrlUseBits,
            labelScrDist, self.ctrlScrDist,
            labelScrPixels, ScrPixelsSizer,
            labelScrWidth, self.ctrlScrWidth,
            labelCalibDate, self.ctrlCalibDate
        ])
        infoBoxGrid.Layout()
        infoBoxSizer.Add(infoBoxGrid)
        # put the notes box below the main grid sizer
        infoBoxSizer.Add(labelCalibNotes)
        infoBoxSizer.Add(self.ctrlCalibNotes, 1, wx.EXPAND)
        return infoBoxSizer

    def makeCalibBox(self, parent):
        boxLabel = wx.StaticBox(parent, -1, _translate('Calibration'))
        boxLabel.SetFont(wx.Font(14, wx.SWISS, wx.NORMAL, wx.NORMAL))
        calibBox = wx.StaticBoxSizer(boxLabel)

        photometerBox = wx.FlexGridSizer(cols=2, hgap=6, vgap=6)
        # com port entry number
        self.comPortLabel = wx.StaticText(parent, -1, " ", size=(150, 20))
        # photometer button
        # photom type choices should not need localization:
        _choices = list([p.longName for p in hardware.getAllPhotometers()])
        self.ctrlPhotomType = wx.Choice(parent, -1, name="Type:",
                                        choices=_choices)

        _ports = list(hardware.getSerialPorts())
        self._photomChoices = [_translate("Scan all ports")] + _ports
        _size = self.ctrlPhotomType.GetSize() + [0, 5]
        self.ctrlPhotomPort = wx.ComboBox(parent, -1, name="Port:",
                                          value=self._photomChoices[0],
                                          choices=self._photomChoices,
                                          size=_size)

        # self.Bind(wx.EVT_CHOICE, self.onChangePhotomType, self.ctrlPhotomType)
        self.btnFindPhotometer = wx.Button(parent, -1,
                                           _translate("Get Photometer"))
        self.Bind(wx.EVT_BUTTON,
                  self.onBtnFindPhotometer, self.btnFindPhotometer)

        # gamma controls
        self.btnCalibrateGamma = wx.Button(
            parent, -1, _translate("Gamma Calibration..."))
        self.Bind(wx.EVT_BUTTON,
                  self.onCalibGammaBtn, self.btnCalibrateGamma)
        self.btnTestGamma = wx.Button(
            parent, -1, _translate("Gamma Test..."))
        self.btnTestGamma.Enable(False)

        # color controls
        self.Bind(wx.EVT_BUTTON,
                  self.onCalibTestBtn, self.btnTestGamma)
        self.btnCalibrateColor = wx.Button(
            parent, -1, _translate("Chromatic Calibration..."))
        self.btnCalibrateColor.Enable(False)
        self.Bind(wx.EVT_BUTTON,
                  self.onCalibColorBtn, self.btnCalibrateColor)
        self.btnPlotGamma = wx.Button(
            parent, -1, _translate("Plot gamma"))
        self.Bind(wx.EVT_BUTTON,
                  self.plotGamma, self.btnPlotGamma)
        self.btnPlotSpectra = wx.Button(
            parent, -1, _translate("Plot spectra"))
        self.Bind(wx.EVT_BUTTON,
                  self.plotSpectra, self.btnPlotSpectra)
        photometerBox.AddMany([self.ctrlPhotomType, self.btnFindPhotometer,
                               self.ctrlPhotomPort, (0, 0),
                               self.comPortLabel, (0, 0),
                               self.btnCalibrateGamma, (0, 0),
                               self.btnTestGamma, self.btnPlotGamma,
                               self.btnCalibrateColor, self.btnPlotSpectra])

        # ----GAMMA------------
        # calibration grid
        gammaBox = wx.StaticBox(parent, -1, _translate('Linearization'))
        gammaBox.SetFont(wx.Font(14, wx.SWISS, wx.NORMAL, wx.NORMAL))
        gammaBoxSizer = wx.StaticBoxSizer(gammaBox, wx.VERTICAL)

        # don't localize the choices
        _choices = ['easy: a+kx^g', 'full: a+(b+kx)^g']
        self.choiceLinearMethod = wx.Choice(parent, -1, name='formula:',
                                            choices=_choices)
        if self.currentMon.getLinearizeMethod() == 4:
            self.choiceLinearMethod.SetSelection(1)
        else:
            self.choiceLinearMethod.SetSelection(0)
        self.Bind(wx.EVT_CHOICE, self.onChangeLinearMethod,
                  self.choiceLinearMethod)
        gammaBoxSizer.Add(self.choiceLinearMethod, 1, wx.ALL, 2)

        self.gammaGrid = SimpleGrid(parent, id=-1,
                                    cols=['Min', 'Max', 'Gamma',
                                          'a', 'b', 'k'],
                                    rows=['lum', 'R', 'G', 'B'])
        gammaBoxSizer.Add(self.gammaGrid)
        self.gammaGrid.Bind(wx.grid.EVT_GRID_CELL_CHANGED, self.onChangeGammaGrid)
        gammaBoxSizer.Layout()

        # LMS grid
        LMSbox = wx.StaticBox(parent, -1, 'LMS->RGB')
        LMSboxSizer = wx.StaticBoxSizer(LMSbox, wx.VERTICAL)
        self.LMSgrid = SimpleGrid(parent, id=-1,
                                  cols=['L', 'M', 'S'],
                                  rows=['R', 'G', 'B'])
        LMSboxSizer.Add(self.LMSgrid)
        LMSboxSizer.Layout()
        self.LMSgrid.Bind(wx.grid.EVT_GRID_CELL_CHANGED, self.onChangeLMSgrid)

        # DKL grid
        DKLbox = wx.StaticBox(parent, -1, 'DKL->RGB')
        DKLboxSizer = wx.StaticBoxSizer(DKLbox, wx.VERTICAL)
        self.DKLgrid = SimpleGrid(parent, id=-1,
                                  cols=['Lum', 'L-M', 'L+M-S'],
                                  rows=['R', 'G', 'B'])
        DKLboxSizer.Add(self.DKLgrid)
        DKLboxSizer.Layout()
        self.DKLgrid.Bind(wx.grid.EVT_GRID_CELL_CHANGED, self.onChangeDKLgrid)

        calibBoxMainSizer = wx.BoxSizer(wx.VERTICAL)
        calibBoxMainSizer.AddMany([photometerBox,
                                   gammaBoxSizer,
                                   LMSboxSizer,
                                   DKLboxSizer])
        calibBoxMainSizer.Layout()

        if NOTEBOOKSTYLE:
            return calibBoxMainSizer
        else:
            # put the main sizer into a labeled box
            calibBox.Add(calibBoxMainSizer)
            return calibBox

    def loadMonitor(self, name=None):
        self.currentMon = monitors.Monitor(name, verbose=False)
        self.currentCalibName = self.currentMon.setCurrent(-1)
        self.updateCalibList()
        self.unSavedMonitor = False

    def updateMonList(self):
        # refresh list of all available monitors on path
        monList = monitors.getAllMonitors()
        self.ctrlMonList.Set(monList)
        # if we had selected a monitor, make sure it's still selected
        if len(monList) > 0:
            if self.currentMonName is not None:
                self.ctrlMonList.SetStringSelection(self.currentMonName)
            else:
                self.ctrlMonList.SetSelection(0)
                self.onChangeMonSelection(event=-1)
            # do we need to update the calibList always after this?
            return 1
        else:
            # there are no monitors - create an empty one to popoulate the
            # fields
            self.currentMon = monitors.Monitor('', verbose=False)
            self.currentMonName = None
            return 0  # there were no monitors on the path

    def updateCalibList(self, thisList=None):
        """update the list of calibrations either from the current
        monitor or to a given list
        """
        if thisList is None:  # fetch it from monitor file
            thisList = self.currentMon.calibNames
        # populate the listbox
        self.ctrlCalibList.Set(thisList)
        # select the current calib
        if self.currentCalibName in thisList:
            self.ctrlCalibList.SetStringSelection(self.currentCalibName)
            self.onChangeCalibSelection(event=-1)

# application callbacks
    def onCloseWindow(self, event):
        if self.unSavedMonitor:
            # warn user that data will be lost
            msg = _translate(
                'Save changes to monitor settings before quitting?')
            dlg = dialogs.MessageDialog(self, message=msg, type='Warning')
            resp = dlg.ShowModal()
            if resp == wx.ID_CANCEL:
                return 1  # return before quitting
            elif resp == wx.ID_YES:
                # save then quit
                self.currentMon.save()
            elif resp == wx.ID_NO:
                pass  # don't save just quit
            dlg.Destroy()
        self.onCopyMon()  # save current monitor name to clipboard
        self.Destroy()

# admin callbacks
    def onChangeMonSelection(self, event):
        if self.unSavedMonitor:
            if self.currentMonName == self.ctrlMonList.GetStringSelection():
                # it didn't really change
                return 1
            # warn user that data will be lost
            msg = _translate('Save changes to monitor?')
            dlg = dialogs.MessageDialog(self, msg, type='Warning')
            resp = dlg.ShowModal()
            dlg.Destroy()
            if resp == wx.ID_CANCEL:
                # revert and return
                self.ctrlMonList.SetStringSelection(self.currentMonName)
                return False  # return before quitting
            elif resp == wx.ID_YES:
                # save then change
                self.currentMon.save()
            elif resp == wx.ID_NO:
                pass  # don't save just change
        self.currentMonName = self.ctrlMonList.GetStringSelection()
        self.loadMonitor(self.currentMonName)

    def onChangeCalibSelection(self, event, newCalib=None):
        # get data under current calibration
        if newCalib is None:
            # probably came from an event - check the new name
            newCalib = self.ctrlCalibList.GetStringSelection()
        # do the load and check new name
        self.currentCalibName = self.currentMon.setCurrent(newCalib)

        # insert values from new calib into GUI
        _date = monitors.strFromDate(self.currentMon.getCalibDate())
        self.ctrlCalibDate.SetValue(_date)

        _dist = self.currentMon.getDistance() or 0
        self.ctrlScrDist.SetValue(locale.str(_dist))

        _width = self.currentMon.getWidth() or 0
        self.ctrlScrWidth.SetValue(locale.str(_width))

        _sizePix = self.currentMon.getSizePix() or [0, 0]
        self.ctrlScrPixHoriz.SetValue(locale.str(_sizePix[0]))
        self.ctrlScrPixVert.SetValue(locale.str(_sizePix[1]))

        # self.ctrlScrGamma.SetValue(str(self.currentMon.getGamma()))
        self.ctrlCalibNotes.SetValue(self.currentMon.getNotes() or '')
        self.ctrlUseBits.SetValue(self.currentMon.getUseBits())
        self.gammaGrid.setData(self.currentMon.getGammaGrid())
        if self.currentMon.getLinearizeMethod() == 4:
            self.choiceLinearMethod.SetSelection(1)
        else:
            self.choiceLinearMethod.SetSelection(0)
        self.LMSgrid.setData(self.currentMon.getLMS_RGB())
        self.DKLgrid.setData(self.currentMon.getDKL_RGB())

        self.enableDisableCtrls()
        self.unSavedMonitor = False
        return 1

    def enableDisableCtrls(self):
        # update controls for current monitor
        if not 'lumsPre' in self.currentMon.currentCalib:
            self.btnPlotGamma.Enable(True)
        else:
            self.btnPlotGamma.Enable(True)
        if not 'spectraRGB' in self.currentMon.currentCalib:
            self.btnPlotSpectra.Enable(False)
        else:
            self.btnPlotSpectra.Enable(True)
        if self.currentMon.getLevelsPre() is None:
            self.choiceLinearMethod.Disable()
        else:
            self.choiceLinearMethod.Enable()

    def onCopyMon(self, event=None):
        """Copy monitor name to clipboard, to paste elsewhere
        """
        if wx.TheClipboard.Open():
            wx.TheClipboard.Clear()
            wx.TheClipboard.SetData(wx.TextDataObject(self.currentMon.name))
            wx.TheClipboard.Close()

    def onSaveMon(self, event):
        """Saves calibration entry to location.
        Note that the calibration date will reflect the save date/time
        """
        self.currentMon.save()
        self.unSavedMonitor = False

    def onCopyCalib(self, event):
        """Creates a new calibration entry for the monitor.
        Note that the calibration date will reflect the save date/time
        """

        # use time as initial guess at name
        calibTime = time.localtime()
        calibTimeStr = monitors.strFromDate(calibTime)

        # then use dialogue so user can override
        msg = _translate(
            'Name of this calibration (for monitor "%(name)s") will be:)')
        infoStr = msg % {'name': self.currentMon.name}
        dlg = wx.TextEntryDialog(self, message=infoStr,
                                 value=calibTimeStr,
                                 caption=_translate('Input text'))
        if dlg.ShowModal() == wx.ID_OK:
            newCalibName = dlg.GetValue()
            # update the GUI to reflect new calibration
            self.currentMon.copyCalib(newCalibName)
            self.currentMon.setCalibDate(calibTime)

            self.onChangeCalibSelection(1, newCalibName)
            self.updateCalibList()
            self.unSavedMonitor = True
        dlg.Destroy()

    def onNewMon(self, event):
        # open a dialogue to get the name
        dlg = wx.TextEntryDialog(self, _translate('New monitor name:'),
                                 caption=_translate('Input text'))
        if dlg.ShowModal() == wx.ID_OK:
            self.currentMonName = dlg.GetValue()
            self.ctrlMonList.Append(self.currentMonName)
            self.ctrlMonList.SetStringSelection(self.currentMonName)
            self.currentMon = monitors.Monitor(
                self.currentMonName, verbose=True)
            self.updateCalibList()
            self.onChangeCalibSelection(event=1)
            self.unSavedMonitor = True
        dlg.Destroy()

    def onDeleteMon(self, event):
        monToDel = self.currentMonName
        msg = _translate('Are you sure you want to delete all details for %s? '
                         '(cannot be undone)')
        dlg = dialogs.MessageDialog(parent=self, message=msg % monToDel,
                                    type='Warning')
        response = dlg.ShowModal()
        dlg.Destroy()
        if response == wx.ID_YES:
            # delete it (try to remove both calib and json files)
            for fileEnding in ['.calib', '.json']:
                monitorFileName = os.path.join(monitors.monitorFolder,
                                               monToDel + fileEnding)
                if os.path.exists(monitorFileName):
                    os.remove(monitorFileName)
            self.currentMon = None
            self.currentMonName = None
            self.updateMonList()
            # load most recent calibration instead
            # this will load calibration "-1" (last calib)
            self.onChangeMonSelection(event=None)
            self.updateCalibList()

    def onDeleteCalib(self, event):
        calToDel = self.ctrlCalibList.GetStringSelection()
        # warn user that data will be lost
        msg = _translate('Are you sure you want to delete this calibration? '
                         '(cannot be undone)')
        dlg = dialogs.MessageDialog(parent=self,
                                    message=msg,
                                    type='Warning')
        if dlg.ShowModal() == wx.ID_YES:
            # delete it
            self.currentMon.delCalib(calToDel)
            # load most recent calibration instead
            # this will load calibration "-1" (last calib)
            self.onChangeCalibSelection(event=None, newCalib=-1)
            self.updateCalibList()
        dlg.Destroy()

# info callbacks
    def onChangeCalibDate(self, event):
        # do we want the user to change a calib date?
        pass

    def onChangeCalibNotes(self, event):
        newVal = self.ctrlCalibNotes.GetValue()
        self.currentMon.setNotes(newVal)
        self.unSavedMonitor = True

    def onChangeScrDist(self, event):
        newVal = unicodeToFloat(self.ctrlScrDist.GetValue())
        # zero means "not set" but can't be used in calculations
        if newVal == 0:
            newVal = None
        self.currentMon.setDistance(newVal)
        self.unSavedMonitor = True

    def onChangeScrWidth(self, event):
        newVal = unicodeToFloat(self.ctrlScrWidth.GetValue())
        # zero means "not set" but can't be used in calculations
        if newVal == 0:
            newVal = None
        self.currentMon.setWidth(newVal)
        self.unSavedMonitor = True

    def onChangeScrPixHoriz(self, event):
        this = self.currentMon.currentCalib
        if self.currentMon.getSizePix() is None:
            self.currentMon.setSizePix([0,0])
        newVal = unicodeToFloat(self.ctrlScrPixHoriz.GetValue())
        this['sizePix'] = [newVal, this['sizePix'][1]]
        self.unSavedMonitor = True

    def onChangeScrPixVert(self, event):
        this = self.currentMon.currentCalib
        if self.currentMon.getSizePix() is None:
            self.currentMon.setSizePix([0,0])
        newVal = unicodeToFloat(self.ctrlScrPixVert.GetValue())
        this['sizePix'] = [this['sizePix'][0], newVal]
        self.unSavedMonitor = True

    # calib callbacks
    def onChangeGammaGrid(self, event):
        # convert to float
        newVal = self.gammaGrid.GetCellValue(event.GetRow(), event.GetCol())
        newVal = unicodeToFloat(newVal)
        # insert in grid
        row, col = event.GetRow(), event.GetCol()
        self.currentMon.currentCalib['gammaGrid'][row, col] = newVal
        self.unSavedMonitor = True

    def onChangeLMSgrid(self, event):
        # convert to float
        newVal = self.LMSgrid.GetCellValue(event.GetRow(), event.GetCol())
        newVal = unicodeToFloat(newVal)
        # insert in grid
        row, col = event.GetRow(), event.GetCol()
        self.currentMon.currentCalib['lms_rgb'][row, col] = newVal
        self.unSavedMonitor = True

    def onChangeDKLgrid(self, event):
        # convert to float
        newVal = self.DKLgrid.GetCellValue(event.GetRow(), event.GetCol())
        newVal = unicodeToFloat(newVal)
        # insert in grid
        row, col = event.GetRow(), event.GetCol()
        self.currentMon.currentCalib['dkl_rgb'][row, col] = newVal
        self.unSavedMonitor = True

    def onCalibGammaBtn(self, event):
        if NO_MEASUREMENTS:
            # recalculate from previous measure
            lumsPre = self.currentMon.getLumsPre()
            lumLevels = self.currentMon.getLevelsPre()
        else:
            # present a dialogue to get details for calibration
            calibDlg = GammaDlg(self, self.currentMon)
            if calibDlg.ShowModal() != wx.ID_OK:
                calibDlg.Destroy()
                return 1
            nPoints = int(calibDlg.ctrlNPoints.GetValue())
            stimSize = unicodeToFloat(calibDlg.ctrlStimSize.GetValue())
            useBits = calibDlg.ctrlUseBits.GetValue()
            calibDlg.Destroy()
            autoMode = calibDlg.methodChoiceBx.GetStringSelection()
            # lib starts at zero but here we allow 1
            screen = int(calibDlg.ctrlScrN.GetValue()) - 1

            # run the calibration itself
            lumLevels = monitors.DACrange(nPoints)
            _size = self.currentMon.getSizePix()
            lumsPre = monitors.getLumSeries(photometer=self.photom,
                                            lumLevels=lumLevels,
                                            useBits=useBits,
                                            autoMode=autoMode,
                                            winSize=_size,
                                            stimSize=stimSize,
                                            monitor=self.currentMon,
                                            screen=screen)

            # allow user to type in values
            if autoMode == 'semi':
                inputDlg = GammaLumValsDlg(parent=self, levels=lumLevels)
                lumsPre = inputDlg.show()  # will be [] if user cancels
                inputDlg.Destroy()

        # fit the gamma curves
        if lumsPre is None or len(lumsPre) > 1:
            self.onCopyCalib(1)  # create a new dated calibration
            self.currentMon.setLumsPre(lumsPre)  # save for future
            self.currentMon.setLevelsPre(lumLevels)  # save for future
            self.btnPlotGamma.Enable(True)
            self.choiceLinearMethod.Enable()

            # do the fits
            self.doGammaFits(lumLevels, lumsPre)
        else:
            logging.warning('No lum values captured/entered')

    def doGammaFits(self, levels, lums):
        linMethod = self.currentMon.getLinearizeMethod()

        if linMethod == 4:
            msg = 'Fitting gamma equation (%i) to luminance data'
            logging.info(msg % linMethod)
            currentCal = numpy.ones([4, 6], 'f') * numpy.nan
            for gun in [0, 1, 2, 3]:
                gamCalc = monitors.GammaCalculator(
                    levels, lums[gun, :], eq=linMethod)
                currentCal[gun, 0] = gamCalc.min  # min
                currentCal[gun, 1] = gamCalc.max  # max
                currentCal[gun, 2] = gamCalc.gamma  # gamma
                currentCal[gun, 3] = gamCalc.a  # gamma
                currentCal[gun, 4] = gamCalc.b  # gamma
                currentCal[gun, 5] = gamCalc.k  # gamma
        else:
            currentCal = numpy.ones([4, 3], 'f') * numpy.nan
            msg = 'Fitting gamma equation (%i) to luminance data'
            logging.info(msg % linMethod)
            for gun in [0, 1, 2, 3]:
                gamCalc = monitors.GammaCalculator(
                    levels, lums[gun, :], eq=linMethod)
                currentCal[gun, 0] = lums[gun, 0]  # min
                currentCal[gun, 1] = lums[gun, -1]  # max
                currentCal[gun, 2] = gamCalc.gamma  # gamma

        self.gammaGrid.setData(currentCal)
        self.currentMon.setGammaGrid(currentCal)
        self.unSavedMonitor = True

    def onChangeLinearMethod(self, event):
        newMethod = self.choiceLinearMethod.GetStringSelection()
        if newMethod.startswith('full'):
            self.currentMon.setLineariseMethod(4)
        else:
            self.currentMon.setLineariseMethod(1)
        self.unSavedMonitor = True
        if self.currentMon.getLumsPre().any() != None:
            self.doGammaFits(self.currentMon.getLevelsPre(),
                             self.currentMon.getLumsPre())

    def onCalibTestBtn(self, event):
        # set the gamma and test calibration
        currentCal = self.currentMon.currentCalib['gammaGrid']

        calibDlg = GammaDlg(self, self.currentMon)
        if calibDlg.ShowModal() != wx.ID_OK:
            calibDlg.Destroy()
            return 1
        nPoints = int(calibDlg.ctrlNPoints.GetValue())
        stimSize = unicodeToFloat(calibDlg.ctrlStimSize.GetValue())
        useBits = calibDlg.ctrlUseBits.GetValue()
        calibDlg.Destroy()
        autoMode = calibDlg.methodChoiceBx.GetStringSelection()
        # lib starts at zero but here we allow 1
        screen = int(calibDlg.ctrlScrN.GetValue()) - 1

        lumLevels = monitors.DACrange(nPoints)
        # gamma=None causes the function to use monitor settings
        lumsPost = monitors.getLumSeries(photometer=self.photom,
                                         lumLevels=lumLevels,
                                         useBits=useBits,
                                         autoMode=autoMode,
                                         winSize=self.currentMon.getSizePix(),
                                         stimSize=stimSize,
                                         monitor=self.currentMon,
                                         gamma=None,
                                         screen=screen,)

        if len(lumsPost) > 1:
            self.currentMon.setLumsPost(lumsPost)  # save for future
            self.currentMon.setLevelsPost(lumLevels)  # save for future
            self.unSavedMonitor = True

    def onCalibColorBtn(self, event):
        if NO_MEASUREMENTS:
            # get previous spectra:
            nm, spectra = self.currentMon.getSpectra()
        else:
            # do spectral measurement:
            useBits = self.currentMon.getUseBits()
            _size = self.currentMon.getSizePix()
            nm, spectra = monitors.getRGBspectra(stimSize=0.5,
                                                 photometer=self.photom,
                                                 winSize=_size)
            self.currentMon.setSpectra(nm, spectra)
            self.btnPlotSpectra.Enable(True)  # can now plot spectra
            self.unSavedMonitor = True

        self.onCopyCalib(1)  # create a new dated calibration

        # dkl
        dkl_rgb = monitors.makeDKL2RGB(nm, spectra)
        self.currentMon.setDKL_RGB(dkl_rgb)
        self.DKLgrid.setData(dkl_rgb)
        # lms
        lms_rgb = monitors.makeLMS2RGB(nm, spectra)
        self.currentMon.setLMS_RGB(lms_rgb)
        self.LMSgrid.setData(lms_rgb)

    def onChangeUseBits(self, event):
        newVal = self.ctrlUseBits.GetValue()
        self.currentMon.setUseBits(newVal)
        self.unSavedMonitor = True

    def onCtrlPhotomType(self, event):
        pass

    def onBtnFindPhotometer(self, event):

        # safer to get by index, but GetStringSelection will work for
        # nonlocalized technical names:
        photName = self.ctrlPhotomType.GetStringSelection()
        # not sure how
        photPort = self.ctrlPhotomPort.GetValue().strip()
        # [0] == Scan all ports
        if not photPort or photPort == self._photomChoices[0]:
            photPort = None
        elif photPort.isdigit():
            photPort = int(photPort)
        # search all ports
        self.comPortLabel.SetLabel(_translate('Scanning ports...'))
        self.Update()
        self.photom = hardware.findPhotometer(device=photName, ports=photPort)
        if self.photom is not None and self.photom.OK:
            self.btnFindPhotometer.Disable()
            self.btnCalibrateGamma.Enable(True)
            self.btnTestGamma.Enable(True)
            if hasattr(self.photom, 'getLastSpectrum'):
                self.btnCalibrateColor.Enable(True)
            msg = _translate('%(photomType)s found on %(photomPort)s')
            self.comPortLabel.SetLabel(msg %
                                       {'photomType': self.photom.type,
                                        'photomPort': self.photom.portString})
        else:
            self.comPortLabel.SetLabel(_translate('No photometers found'))
            self.photom = None

        # does this device need a dark calibration?
        if (hasattr(self.photom, 'getNeedsCalibrateZero') and
                self.photom.getNeedsCalibrateZero()):
            # prompt user if we need a dark calibration for the device
            if self.photom.getNeedsCalibrateZero():
                wx.Dialog(self, title=_translate(
                    'Dark calibration of ColorCAL'))
                msg = _translate('Your ColorCAL needs to be calibrated first.'
                                 ' Please block all light from getting into '
                                 'the lens and press OK.')
                while self.photom.getNeedsCalibrateZero():
                    txt = _translate('Dark calibration of ColorCAL')
                    dlg = dialogs.MessageDialog(self, message=msg,
                                                title=txt,
                                                type='Info')
                    # info dlg has only an OK button
                    resp = dlg.ShowModal()
                    if resp == wx.ID_CANCEL:
                        self.photom = None
                        self.comPortLabel.SetLabel('')
                        return 0
                    elif resp == wx.ID_OK:
                        self.photom.calibrateZero()
                    # this failed at least once. Try again.
                    msg = _translate('Try again. Cover the lens fully and '
                                     'press OK')

    def plotGamma(self, event=None):
        msg = _translate('%(monName)s %(calibName)s Gamma Functions')
        figTitle = msg % {'monName': self.currentMonName,
                          'calibName': self.currentCalibName}
        plotWindow = PlotFrame(self, 1003, figTitle)

        figure = Figure(figsize=(5, 5), dpi=80)
        figureCanvas = FigureCanvas(plotWindow, -1, figure)
        plt = figure.add_subplot(111)
        plt.cla()

        gammaGrid = self.currentMon.getGammaGrid()
        lumsPre = self.currentMon.getLumsPre()
        levelsPre = self.currentMon.getLevelsPre()
        lumsPost = self.currentMon.getLumsPost()

        # Handle the case where the button is pressed but no gamma data is
        # available.
        if lumsPre is None:
            return   # nop
        elif lumsPre.any() != None:
            colors = 'krgb'
            xxSmooth = numpy.arange(0, 255.5, 0.5)
            eq = self.currentMon.getLinearizeMethod()
            for gun in range(4):  # includes lum
                gamma = gammaGrid[gun, 2]
                minLum = gammaGrid[gun, 0]
                maxLum = gammaGrid[gun, 1]
                if eq <= 2:
                    # plot fitted curve
                    curve = monitors.gammaFun(xxSmooth, minLum, maxLum, gamma,
                                              eq=eq, a=None, b=None, k=None)
                    plt.plot(xxSmooth, curve, colors[gun] + '-',
                             linewidth=1.5)
                if self.currentMon.getLinearizeMethod() == 4:
                    a, b, k = gammaGrid[gun, 3:]
                    # plot fitted curve
                    curve = monitors.gammaFun(xxSmooth, minLum, maxLum, gamma,
                                              eq=eq, a=a, b=b, k=k)
                    plt.plot(xxSmooth, curve, colors[gun] + '-',
                             linewidth=1.5)
                else:
                    pass
                    # polyFit = self.currentMon._gammaInterpolator[gun]
                    # curve = xxSmooth*0.0
                    # for expon, coeff in enumerate(polyFit):
                    #    curve += coeff*xxSmooth**expon
                    # plt.plot(xxSmooth, curve, colors[gun]+'-', linewidth=1.5)
                # plot POINTS
                plt.plot(levelsPre, lumsPre[gun, :], colors[gun] + 'o',
                         linewidth=1.5)

            lumsPost = self.currentMon.getLumsPost()
            levelsPost = self.currentMon.getLevelsPost()
        if lumsPost is not None:
            for gun in range(4):  # includes lum,r,g,b
                lums = lumsPost[gun, :]
                gamma = gammaGrid[gun, 2]
                minLum = min(lums)
                maxLum = max(lums)
                # plot CURVE
                plt.plot([levelsPost[0], levelsPost[-1]],
                         [minLum, maxLum], colors[gun] + '--', linewidth=1.5)
                # plot POINTS
                plt.plot(levelsPost, lums, 'o', markerfacecolor='w',
                         markeredgecolor=colors[gun], linewidth=1.5)
        figureCanvas.draw()  # update the canvas
        plotWindow.addCanvas(figureCanvas)

    def plotSpectra(self, event=None):
        msg = _translate('%(monName)s %(calibName)s Spectra')
        figTitle = msg % {'monName': self.currentMonName,
                          'calibName': self.currentCalibName}
        plotWindow = PlotFrame(self, 1003, figTitle)
        figure = Figure(figsize=(5, 5), dpi=80)
        figureCanvas = FigureCanvas(plotWindow, -1, figure)
        plt = figure.add_subplot(111)
        plt.cla()

        nm, spectraRGB = self.currentMon.getSpectra()
        if nm != None:
            plt.plot(nm, spectraRGB[0, :], 'r-', linewidth=1.5)
            plt.plot(nm, spectraRGB[1, :], 'g-', linewidth=2)
            plt.plot(nm, spectraRGB[2, :], 'b-', linewidth=2)
        figureCanvas.draw()  # update the canvas
        plotWindow.addCanvas(figureCanvas)


class GammaLumValsDlg(wx.Dialog):
    """A dialogue to manually get the luminance values recorded for each level
    """

    def __init__(self, parent, levels):

        wx.Dialog.__init__(self, parent, -1,
                           _translate('Recorded luminance values'),
                           style=wx.DEFAULT_DIALOG_STYLE | wx.RESIZE_BORDER)
        pad = 5
        panel = wx.Panel(self, -1)
        mainSizer = wx.BoxSizer(wx.VERTICAL)
        mainSizer.Add(self.makeCalibBox(parent=panel, levels=levels), 1,
                      wx.EXPAND | wx.ALL, pad)

        butBox = wx.BoxSizer(wx.HORIZONTAL)
        btnOK = wx.Button(panel, wx.ID_OK, _translate(" OK "))
        btnOK.SetDefault()
        btnCANC = wx.Button(panel, wx.ID_CANCEL, _translate(" Cancel "))

        butBox.Add(btnOK, 1, wx.BOTTOM | wx.ALIGN_RIGHT, pad)
        butBox.Add(btnCANC, 1, wx.BOTTOM | wx.RIGHT | wx.ALIGN_RIGHT, pad)
        mainSizer.Add(butBox, flag=wx.ALIGN_CENTER | wx.TOP | wx.BOTTOM,
                      border=10)

        # finalise panel layout
        panel.SetAutoLayout(True)
        panel.SetSizerAndFit(mainSizer)
        mainSizer.Layout()
        self.SetSize(self.GetBestSize())

    def makeCalibBox(self, parent, levels):
        '''do my best to make a calibration box'''
        gammaBox = wx.StaticBox(parent, -1, _translate('Luminance Values'))
        gammaBox.SetFont(wx.Font(14, wx.SWISS, wx.NORMAL, wx.NORMAL))
        gammaBoxSizer = wx.StaticBoxSizer(gammaBox, wx.VERTICAL)

        theCols = list(map(str, levels))
        self.gammaGrid = SimpleGrid(parent, id=-1,
                                    cols=theCols,
                                    rows=['lum', 'R', 'G', 'B'])
        gammaBoxSizer.Add(self.gammaGrid)
        self.gammaGrid.Bind(wx.grid.EVT_GRID_CELL_CHANGED, self.onChangeGammaGrid)
        gammaBoxSizer.Layout()

        return gammaBoxSizer

    def onChangeGammaGrid(self, event):
        """The first column = black, so it gets set same for all, fix
        """
        if event.GetCol() == 0:
            newVal = self.gammaGrid.GetCellValue(event.GetRow(),
                                                 event.GetCol())
            newVal = unicodeToFloat(newVal)
            for nRow in range(self.gammaGrid.nRows):
                self.gammaGrid.SetCellValue(nRow, 0, '%f' % newVal)

    def getData(self):
        """Retrieve the data from the grid in same format as auto calibration
        """
        data = []
        for nRow in range(self.gammaGrid.nRows):
            bob = []
            for nCol in range(self.gammaGrid.nCols):
                bob.append(self.gammaGrid.GetCellValue(nRow, nCol))
            data.append(list(map(float, bob)))
        return data

    def show(self):
        """Show dialog, retrieve data, empty if cancel
        """
        ok = self.ShowModal()
        if ok == wx.ID_OK:
            return numpy.array(self.getData())
        else:
            return numpy.array([])


class GammaDlg(wx.Dialog):

    def __init__(self, parent, monitor):
        self.method = 'auto'
        self.nPoints = 8
        assert isinstance(monitor, monitors.Monitor)
        self.useBits = monitor.getUseBits()

        wx.Dialog.__init__(self, parent, -1, _translate('Gamma Calibration'),
                           style=wx.DEFAULT_DIALOG_STYLE | wx.RESIZE_BORDER)
        mainSizer = wx.FlexGridSizer(cols=2, hgap=1, vgap=1)

        # select method of calib (auto, semi-auto, manual)
        # todo: make the input  tablefor manual method
        self.methodChoiceBx = wx.Choice(self, -1, choices=['auto', 'semi'])
        self.methodChoiceBx.SetStringSelection('auto')
        self.Bind(wx.EVT_CHOICE, self.onMethodChange, self.methodChoiceBx)

        self.ctrlUseBits = wx.CheckBox(self, -1, _translate('Use Bits++'))
        self.ctrlUseBits.SetValue(self.useBits)

        msg = _translate('Number of calibration points:')
        self.labelNPoints = wx.StaticText(self, -1, msg)
        self.ctrlNPoints = intctrl.IntCtrl(self, -1, value=8)

        msg = _translate('Screen number (primary is 1)')
        self.labelScrN = wx.StaticText(self, -1, msg)
        self.ctrlScrN = intctrl.IntCtrl(self, -1, value=1)

        msg = _translate('Patch size (fraction of screen):')
        self.labelStimSize = wx.StaticText(self, -1, msg)
        self.ctrlStimSize = wx.TextCtrl(self, -1, '0.3')

        pad = 5
        mainSizer.Add((0, 0), 1, wx.ALL, pad)
        mainSizer.Add(self.methodChoiceBx, 1, wx.ALL, pad)
        mainSizer.Add(self.labelScrN, 1, wx.ALL, pad)
        mainSizer.Add(self.ctrlScrN, 1, wx.ALL, pad)
        mainSizer.Add(self.labelNPoints, 1, wx.ALL, pad)
        mainSizer.Add(self.ctrlNPoints, 1, wx.ALL, pad)
        mainSizer.Add(self.labelStimSize, 1, wx.ALL, pad)
        mainSizer.Add(self.ctrlStimSize, 1, wx.ALL, pad)
        mainSizer.Add((0, 0), 1, wx.ALL, pad)
        mainSizer.Add(self.ctrlUseBits, 1, wx.ALL, pad)

        btnOK = wx.Button(self, wx.ID_OK, _translate(" OK "))
        btnOK.SetDefault()
        mainSizer.Add(btnOK, 1, wx.TOP | wx.BOTTOM | wx.ALIGN_RIGHT, pad)
        btnCANC = wx.Button(self, wx.ID_CANCEL, _translate(" Cancel "))
        mainSizer.Add(btnCANC, 1,
                      wx.TOP | wx.BOTTOM | wx.RIGHT | wx.ALIGN_RIGHT, pad)
        self.Center()
        # mainSizer.Fit(self)
        self.SetAutoLayout(True)
        self.SetSizerAndFit(mainSizer)

    def onMethodChange(self, event):
        pass


class MonitorCenter(wx.App):

    def OnInit(self):
        frame = MainFrame(None, _translate('PsychoPy Monitor Center'))
        frame.Show(True)
        self.SetTopWindow(frame)
        return True

if __name__ == '__main__':
    app = MonitorCenter(0)
    app.MainLoop()
